Household Electronics

1. Household Electronics Diodes & Rectification Component Identification

2. UCSD: Physics 8; 2006 I I I I V V V V Diodes • Diodes are essentially one-way current gates • Symbolized by: • Current vs. voltage graphs: acts just like a wire (will support arbitrary current) provided that voltage is positive 0.6 V plain resistor diode idealized diode WAY idealized diode the direction the arrow points in the diode symbol is the direction that current will flow current flows no current flows

3. UCSD: Physics 8; 2006 Diode Makeup • Diodes are made of semiconductors (usually silicon) • Essentially a stack of p-doped and n-doped silicon to form a p-n junction • doping means deliberate impurities that contribute extra electrons (n-doped) or “holes” for electrons (p-doped) • Transistors are n-p-n ir p-n-p arrangements of semiconductors (like oreo cookies) p-type n-type

4. UCSD: Physics 8; 2006 LEDs: Light-Emitting Diodes • Main difference is material is more exotic than silicon used in ordinary diodes/transistors • typically 2-volt drop instead of 0.6 V drop • When electron flows through LED, loses energy by emitting a photon of light rather than vibrating lattice (heat) • Anything with an LED cares about the battery orientation (it’s still a diode, after all) • LED efficiency is 30% (compare to incandescent bulb at 10%)

5. UCSD: Physics 8; 2006 Getting DC back out of AC • AC provides a means for us to distribute electrical power, but most devices actually want DC • bulbs, toasters, heaters, fans don’t care: plug straight in • sophisticated devices care because they have diodes and transistors that require a certain polarity • rather than oscillating polarity derived from AC • this is why battery orientation matters in most electronics • Use diodes to “rectify” AC signal • Simplest rectifier uses one diode: input voltage AC source load diode only conducts when input voltage is positive voltage seen by load

6. UCSD: Physics 8; 2006 Doing Better: Full-wave Diode Bridge • The diode in the rectifying circuit simply prevented the negative swing of voltage from conducting • but this wastes half the available cycle • also very irregular (bumpy): far from a “good” DC source • By using four diodes, you can recover the negative swing: B & C conduct input voltage A B AC source A & D conduct load C D voltage seen by load

7. UCSD: Physics 8; 2006 Smoothing out the Bumps • Still a bumpy ride, but we can smooth this out with a capacitor • capacitors have capacity for storing charge • acts like a reservoir to supply current during low spots • voltage regulator smoothes out remaining ripple A B capacitor AC source load C D

8. UCSD: Physics 8; 2006 Voltage Regulator: Setting the Voltage • Can trim down ripply voltage to precise, rock-steady value • Now things get complicated! • We are now in the realm of integrated circuits (ICs) • ICs are whole circuits in small packages • ICs contain resistors, capacitors, diodes, transistors, etc.

9. UCSD: Physics 8; 2006 Transistors: a brief glimpse • Transistors have made our modern world possible • Sort-of like diodes end-to-end (npn and pnp junctions • but the sandwiched junction is very thin, and this is important • A small current on the “base” can control a large current flowing from “collector” to “emitter” • Can be used as an amplifier • make a weak signal stronger • Or used as a switch • pedal-to-the-metal saturation regime • Both are incredibly useful

10. UCSD: Physics 8; 2006 Operational Amplifiers (Op-amps) • In essence, an op-amp is an idealized transistor/amplifier • Has > 20 transistors inside • Idyllic properties: • linear amplification • temperature insensitivity • versatile • So useful that electronics builders have trays full of them, and use them like “jelly-beans”

11. UCSD: Physics 8; 2006 Assignments/Announcements • Q/O #2 due tomorrow by 6 PM • Midterm 5/04 (next Thu.) 2PM WLH 2005 • will post study guide on course website • will have review session TBA • Use Green Scantron: Form No.: X-101864 • Bring #2 pencil, calculators okay